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study.com Biology 102: Basic Genetics Final Proctored Exam

Welcome to the area of genetics with Study.com Biology 102: Basic Genetics! If you are entering this course, you are going to learn basic concepts concerning inheritance and the process of how cells acquire and transmit genetic information. This class gives a clear picture of how traits are inherited, the structure and role of DNA, and the general impact of genetics in society. If you are among the students who are preparing for the next major tests or any other person interested in knowing various facts about your family characteristics, this course will be very useful since you will get a basic understanding of what genetics is.  During this class, you will learn more about how DNA carries genetic information, learn about Mendelian genetics, particulars of transmission of traits, and the contribution of DNA in evolution and cancer. This course will therefore seek to offer a good overview of concepts in genetics while at the same time acquainting the learners with real-life applications of the same. So sit back and begin the journey to discovering your DNA, your roadmap to passing the exam and understanding the basics of genetics begins here! — What to Expect from Study.com Biology 102 Class 📖 In Study.com Biology 102: Basic Genetics, you’ll explore an extensive range of matters that provide the fundamental knowledge base of genetic study. The course comprises nine lessons, each addressing a major genetic concept. First of all, you’ll be introduced to the molecular and chromosomal behavior of the inheritance, starting with the definition of different types of DNA and the process of encoding and transmitting the genetic information. Some of the concepts found here include; the structure of nucleic acids, base pairing, organization of genetic material, and how it is passed from one generation to another.  Next up, you’ll progress to Mendelian genetics which seems to involve a change in focus by considering how traits are inherited as presented by Gregor Mendel. It includes such topics as dominant and recessive characters, segregation laws, the laws of independent assortment, and how to use these laws to solve problems related to genetics. Do not be surprised to encounter questions that analyze how given characters are inherited and how individual genetic crosses are expected to pan out.  The course also covers population genetics as well as the theory of evolution. You’ll learn how variation occurs within populations and about the principles of evolution: you will discover the Hardy-Weinberg equilibrium to determine how allele frequencies undergo changes. This is particularly important to understanding the ideas concerning natural selection and evolutionary biology.  Besides, you will learn about model organisms and developmental genetics. This is a lesson where features and complexities of simple model organisms such as fruit flies and mice in terms of the function of genes and the developmental process can be understood. This section also includes DNA damage and repair, a crucial area to know about genetic stability and mutation.  Other content knowledge involves the genetics of humans, which focuses on issues such as genetic disorders, the category of inheritance, and the projection of family trees. This is a summary of basic concepts of genetic analysis and how they may be applied to diagnosing hereditary conditions and how they are inherited.  Finally, the course describes comparative genomics and DNA technology. You will find out how species of different ranking can be compared to understand their relatedness in the evolutionary tree as well as discover more about the current and widely used CRISPR.  All of these areas are subjects that are crucial to your knowledge of genetics and may therefore be included in the proctored final examination. To do well, concentrate on these key ideas and the relations between them since this will assist you in solving any questions concerning theory and its application. Click here for exam support Week-by-Week Study Plan to Ace Study.com Biology 102 Exam📝 Week 1: Dive into the Basics of Genetics Focus: Chapter 1 – The Molecular and Chromosomal Basis of Inheritance Tasks: Understand the structure of DNA, including nucleotides, phosphodiester bonds, and base pairing. Action Items: Watch this video on DNA structure for a clear visual explanation. Create flashcards for key terms like nucleotide, phosphodiester bond, and base pairing. Complete Chapter 1 quizzes on Study.com to test your initial understanding. Week 2: Mendelian Genetics and Laws Focus: Chapter 2 – Transmission/Mendelian Genetics Tasks: Study the properties of alleles, Mendel’s laws of segregation, and how to apply these laws to genetic crosses. Action Items: Read through the properties of alleles and Mendel’s first law. Use these Quizlet flashcards for practice on Mendelian genetics concepts. Watch this YouTube video on Mendel’s laws to reinforce learning. Week 3: Population Genetics and Evolution Focus: Chapter 3 – Population Genetics and Evolution Tasks: Understand Hardy-Weinberg equilibrium and its applications in calculating allele frequencies and genetic variation. Action Items: Review the Hardy-Weinberg equilibrium equation and its prerequisites. Watch this video on Hardy-Weinberg equilibrium for a visual explanation. Practice with exercises and quizzes on Hardy-Weinberg principles on Study.com. Week 4: Model Organisms and Developmental Genetics Focus: Chapter 4 – Model Organisms and Developmental Genetics Tasks: Study the role of non-vertebrate and vertebrate model organisms in genetic research, with a focus on Drosophila development. Action Items: Review different model organisms like yeast, worms, flies, zebrafish, and mice. Watch this video on Drosophila development to understand pattern formation and gene function. Take notes on how these organisms contribute to genetic research and development studies. Week 5: DNA Damage, Mutation, and Repair Focus: Chapter 5 – DNA Damage, Mutation, and Repair Tasks: Learn about different types of mutations (point mutations, missense mutations, frameshift mutations) and DNA repair mechanisms. Action Items: Study the impact of various mutations on protein function and the mechanisms cells use to repair DNA. Watch this video on point mutations and this video on DNA repair mechanisms. Use Study.com’s resources to practice related quiz questions. Week 6: Human Genetics Focus: Chapter 6 – Human Genetics Tasks: Explore human genetics research methods, including pedigrees and